Particle production by white holes
- 15 May 1980
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 21 (10) , 2736-2741
- https://doi.org/10.1103/physrevd.21.2736
Abstract
A white hole is the time reverse of a spacetime in which gravitational collapse has occurred to form a black hole. We find that in quantum field theory in a white-hole background, for any initial state of the field which is a product of a state on the horizon with a state at past null infinity, an infinite particle and energy flux occurs at future null infinity when the white-hole horizon is seen to terminate. This may be interpreted as a quantum version of the classical white-hole instability discussed by Eardley. Consequently, there appear to be considerable difficulties in incorporating white holes into a consistent picture of a thermodynamic self-gravitating quantum system. This provides evidence that the laws of quantum gravity may not be time-reversal invariant.Keywords
This publication has 11 references indexed in Scilit:
- Is Black-Hole Evaporation Predictable?Physical Review Letters, 1980
- Entropy and black-hole thermodynamicsPhysical Review D, 1979
- Existence of the S-matrix in quantum field theory in curved space-timeAnnals of Physics, 1979
- Origin of the particles in black-hole evaporationPhysical Review D, 1977
- Breakdown of predictability in gravitational collapsePhysical Review D, 1976
- Stimulated-emission effects in particle creation near black holesPhysical Review D, 1976
- Black holes and thermodynamicsPhysical Review D, 1976
- Particle creation by black holesCommunications in Mathematical Physics, 1975
- On particle creation by black holesCommunications in Mathematical Physics, 1975
- Death of White Holes in the Early UniversePhysical Review Letters, 1974